SE520263C2 - Combined drill / screwdriver with adjustable connection for the different uses - Google Patents

Abstract

A hand held power tool has a coupling formed for transmission of torques of different values and including at least two coupling parts provided with transmission members for rotary-fixed connection with one another, a coupling spring having an adjustable tensioning force operatable for holding one of the coupling members of one of the coupling parts in a rotary-locked engagement with another of the coupling members of another of the coupling parts, and blocking members with which the coupling parts are rotary-fixed coupled in addition to the transmission members, and which are bringable in engagement with one another in a drilling operation or an impact drilling operation for transmitting a maximum torque.

Description

520 2263 the transfer elements resp. on the coupling parts. Dimensioning of the coupling to high disengagement forces thus becomes unnecessary, which enables a cosmically favorable structure.

The measures specified in the dependent claims claim enable advantageous further developments and improvements of the machine according to the invention.

The arrangement of transfer elements of one of the coupling parts on a transfer ring is particularly advantageous. In this way, the assembly of the transfer elements is considerably facilitated, since instead of a number of individual parts only a single ring needs to be inserted.

The design of one-piece transfer elements on an internal ring gear of a planetary gear is also advantageous. This arrangement further facilitates assembly.

Because, in addition to the transmission elements, the blocking elements can also be brought into their engaging position, the torsionally rigid connection between the coupling parts can be engaged from any arbitrary torque setting of the snap-on coupling.

It is also advantageous if the blocking elements are provided with blocking surfaces which are inclined towards the direction of rotation of the coupling, which at higher torque values snap loose from the transmission surfaces of the transmission elements. In this way, the function of a safety disconnection can be realized through the blocking elements.

Drawing.

Two embodiments of the invention are shown in the drawing and are described in more detail below.

Fig. 1 shows a section of a hand tool machine designed as a drill / screwdriver in longitudinal section, fi g. 2 shows in perspective a coupling of the hand tool machine according to fi g. 1, partially cut, fi g. 3 is an exploded view of the coupling according to fi g. 2 with parts of an adjusting member, fi g. 4 shows a section of a perspective view of a cup 10 15 20 25 30. . «. . - - - - = ~ 1 520 263 3 lingsdel of the coupling according to fi g. 2, fi g. 5 is a perspective view of another coupling part of the coupling according to fi g. 2 in two different views, fi g. 6 shows a partially cut-away perspective view of the coupling according to fi g. 2 with parts of the adjusting means according to fi g. 3, fi g. 7 shows in perspective a blocking slide of the coupling in two different views, fi g. 8 schematically shows a blocking coupling according to a second exemplary embodiment and fi g. 9 shows a control curve of the coupling according to fi g. 8.

Description of the embodiments.

The i fi g. The hand tool machine shown in part in longitudinal section can be used as a drilling machine, as an impact drill or as an electric screwdriver with adjustable torque. In an engine housing indicated by 10, an electric motor (not shown here) is accommodated, which via a gear 11 drives a tool spindle 12. The tool spindle 12 carries at its end a threaded pin 121, on which a tool holder, in particular a chuck, can be screwed, which is used for attachment of drills, percussion drills or various screw tools. In the drive chain between the electric motor and the tool spindle 12, a torque coupling 13 is arranged, the maximum transmissible torque of which is selectable by means of an adjusting means 19.

In detail, the coupling 13 has a first coupling part 15, at the end surface of which a transfer ring 16 is kept rotatably and axially displaceable. A second coupling part 18 is formed by an internal ring gear 17 of the gear 11 designed as a lawn gear.

The first coupling part 15 and the second coupling part 18 are in rotational engagement with each other. Arranged on the end face of the transfer ring 16, arcuate first transfer element 161 engages for this purpose in corresponding recesses 182 arranged on the end surface on the second coupling part 18. The recesses 182 in the direction of rotation of the coupling 13 are limited laterally by means of second transfer elements 181 and see fi g. 2. 4). The engagement of the transmission elements 161, 181 is effected by a coupling spring 20, which on one side rests against the claw 162 of the transmission ring 16 and on the other hand against the adjusting member 19 and biases the transmission ring 16 in the coupling direction of the coupling 13. The adjusting means 19 is connected via a thread 151 to the first coupling part 15. By turning the adjusting means 30,,,. »-. . . - t «n. n. i .t -. t, _, .. t. t. i u, x »1. n. tt n s 1 in i.,. u p »-w-ø I s i - v - I - I I I,,. ., _. . in 4 net 19 in relation to the first coupling part 15, the adjusting means 19 can be brought in the direction of an i fi g. 1 in broken lines shows the axial position in which the coupling spring 20 is compressed and thus exerts a higher preload on the transfer ring 16. By rotating the adjusting ring 19, the torque transmitted by the coupling is thus adjustable.

In the exemplary embodiment, the clutch 13 serves to establish a rotationally connected connection between the first coupling part 15 and the ring gear 17. Only when the clutch 13 is engaged can a torque be transmitted from a sun gear 11a of the gear 11 via the planet gears 21, the planet holder 21a to a planet holder 22. The gear ring 17 is for this purpose rotatably mounted relative to a gear housing 24. The first coupling part 15 is designed as a coupling housing 25. The coupling housing 25 is rotatably connected to the gear housing 24 and the machine housing 10. However, the coupling 13 according to the invention can in principle also arranged between two rotatable parts in the driveline.

From the planet holder 22 the torque is transmitted via a claw coupling 26 not further described here to the tool spindle 12. A locking disc 31 is rotatably and axially immovably fixed on a tool spindle which when required can be engaged and then impact loads the tool spindle 12.

I fi g. 2 shows the coupling 13 in perspective, partly cut away. The figure shows the adjusting means 19, which engages in the thread 151 in the coupling housing 25, which on its side facing away from the adjusting means 19 forms the first coupling part 15. Coupling spring 20, which rests against the adjusting means 19, acts on the claws 162 of the transfer ring 16 ( cut in fi g. 2), which engages with the second transfer elements 181 on the second coupling part 18. On the second coupling part 18, teeth 171, which belong to the internal gear ring 17, can be seen.

I fi g. 3 shows the coupling housing 25 with the thread 151. In the exploded view according to fi g. 3 shows the adjusting member 19 provided with the sloping counter-thread 191, which carries on its outer surface 10 'w -H, - 1 -1 -, ..;. .i .i u v, -i -. .i u ~ »s v .i v ... - 1 :. in .. 1 1, _, = =. f circumferentially arranged carrier elements 38, via which the adjusting member 19 is rotatable by means of an adjusting sleeve 23.

Fig. 4 shows the inner toothed ring 17 with the teeth 171 and the second coupling part 18 formed on the end surface, formed by the second transfer elements 181 and the recesses 182 lying therebetween. transfer surfaces 181a, on which the first transfer elements 161 can slide off.

I fi g. 5a, 5b show two views of the transfer ring 16, which carry the arcuate transfer elements 161. The transfer elements 161 in turn form transfer surfaces 161a.

On the back of the transfer elements 161 three claws 162 are visible, via which the spring force can be exerted on the transfer ring 16 as a biasing force. Instead of a one-piece transfer ring 16 with a plurality of transfer elements 161, a number of transfer elements, for example provided with separate claws 162, for example oversize balls, can also be rotatably arranged on the first coupling part 15.

F ig. 6 shows two further blocking slides 27, which are axially displaceably mounted in an annular flange 1a in the first coupling part 15. The blocking slides 27 are each biased in the direction of the adjusting member 19. The springs 28 rest with their one ends against a projection 15b of the coupling part and with its other ends against the blocking slides 27. The springs 28 then hold the blocking slides 27 at all times in contact with a curved path 29, which is arranged on the end surface of the adjusting sleeve 23 and which in fi g. 3 is indicated by a dashed line. The curved path 29 has different axial positions so that when the adjusting sleeve 23 is rotated relative to the first coupling part 15, the blocking slides 27 can likewise assume different axial positions.

I fi g. 7a and 7b, one of the blocking slides 27 is shown in different views. I fi g. 7a shows a abutment surface 272, which serves to support the curved path 29. On the side facing the abutment surface 272, a bearing pin 273 for the spring 28 is visible. 10 15 20 25 szo 2es¿w; ¿; äæf: f; Fig. 7b shows the first blocking element 271 formed on the blocking slides 271. For blocking, i.e. for torsionally rigid torque coupling of the coupling 13, these blocking elements 271 engage between second blocking elements 183 on the second coupling part 18 (see fi g. 4), when the adjusting sleeve 23 with the curve path 29 is brought to a corresponding turning position. The first blocking elements 271 in this case have lateral blocking surfaces 271a, b, which are approximately perpendicular to the direction of rotation of the gear ring 17. The other blocking elements 183 are likewise provided on the side with corresponding blocking surfaces 186a, b, which are perpendicular to the direction of rotation.

Due to the position of the blocking surfaces l83a, b and 27a, b, perpendicular to the direction of rotation, no disengagement force will be exerted on the blocking slides 27 in their engaged position, ie. the blocking elements 183, 271 always remain in engagement with each other regardless of the transmitted torque. The torque disconnection of the clutch 13 is thus inactive.

I fi g. 8 and 9 show a second embodiment of the invention in principle. Compared with the first exemplary embodiment, the same parts and parts with the same function are provided with the same reference numerals. In contrast to the thirsty embodiment, the blocking part of the coupling 13 is also provided with the function of a safety disconnection. The locking surfaces 18321 ", b and 271a, b are for this purpose, like the transmission surfaces 161a, 181a from the first embodiment, arranged at an acute angle to the direction of rotation, so that an axial force component is obtained during torque transmission. The direction of the locking surfaces 181a, b and b is so selected that at maximum torque the blocking elements 183 and 271 disengage, so that the torque transmission is interrupted, this is achieved in that the blocking elements 183, 271 do not snap over as easily as the transmission elements 161, 181.

The blocking slides 27 are loaded by a coupling spring 33 in the direction of the coupling position of the blocking elements 183, 271. The blocking slides 27 are provided with a pin 34, which engages in a circumferential guide groove 35 in the adjusting sleeve 23. In the engaging position of the blocking slides 27, the guide groove 35 has a wider portion 35a, which provides the pin 34 with it. . -. . . . . . 1. 7 oversize required axial play. To adjust the torque disconnection, the adjusting sleeve 23 is rotated in the circumferential direction until the pins 34 when transitioning from the wider portion 35a to the adjacent guide groove 35 are retracted axially, whereby the blocking coupling is loosened and it in fi g. 8 and 9, the torque coupling according to the first embodiment becomes decisive for the transferable torque.

Claims (15)

105 25 5208263 Patent claims A combined drill / screwdriver, with a coupling (13), which is designed for transmitting different sizes of torque care and which has at least two coupling parts (15, 18), each of which is rotatably connected to at least one transmission element (161, 181), wherein the transfer element (161, 181) of either coupling part (15, 18) is kept in a rotationally engaged engagement with the transfer element (181, 161) of the remaining coupling part (18, 15) by means of an adjustable biasing force of a coupling spring (20), characterized in that the coupling parts (15, 18) in addition to the transfer elements (161, 181) are each rotatably coupled to at least one blocking element (271, 183), which in drilling resp. impact drill drive can be brought into engagement with each other to transmit a maximum torque. Drill / screwdriver according to Claim 1, characterized in that the transmission elements (161, 181) have transmission surfaces (16a, 81a) for torque transmission, which are so arranged in relation to the rotational direction of the coupling (13) that in the case of a torque overhang a torque-dependent disengagement force acts on the transmission elements (161, 181) against the force of the coupling spring (20). Drilling machine / screwdriver according to claim 1 or 2, characterized in that a first coupling part (15) has a number of first transfer elements (161), which are formed on a transfer ring (16), which is pressed by the coupling edema (20) to an engaging position with second transfer element (181) of a second coupling part (18). Drill / screwdriver according to Claim 3, characterized in that the transfer ring (16) is torsionally fixed and axially displaceably connected to the first coupling part (15). Drill / screwdriver according to Claim 3 or 4, characterized in that the first coupling part (15) is formed by a coupling housing (25) and the second coupling part (18) is rotatably connected to an internal ring gear (17) of a planetary gear. 10 5209263 Bearing machine / screwdriver according to claim 5, characterized in that the second coupling part (18) is connected in one piece to the inner gear ring (17), a number of second transfer elements (181) being arranged on an end surface of the gear ring (17). Drill / screwdriver according to one of Claims 3 to 6, characterized in that the coupling spring (20) rests on one side against the transfer ring (16) and on the other hand against an adjusting member (19) which is axially rotatable via a thread (151). in relation to the first coupling part (15). Drill / screwdriver according to one of the preceding claims, characterized in that the blocking elements (271, 183) have blocking surfaces (271a, b; 183a, b) for torque transmission, which are so arranged in relation to the direction of rotation of the coupling (13). , that during torque transmission substantially no torque-dependent disengagement force acts on the blocking elements (271, 181). Drill / screwdriver according to Claim 8, characterized in that in addition to the transfer elements (161, 181), the blocking elements (271, 183) can be brought into their engaging position. Drill / screwdriver according to Claim 8 or 9, characterized in that the blocking surfaces (271a, b; 183a, b) lie substantially transversely to the direction of rotation of the coupling (13). Drill / screwdriver according to one of Claims 8 to 10, characterized in that the first blocking surfaces (271a, b) are formed on at least one blocking slide (27), which is slidably mounted relative to a first coupling part (15). Drill / screwdriver according to claim 11, characterized in that second blocking surfaces (183a, b) are formed on a second coupling part (18). 10 520 263 10 Drill / screwdriver according to Claim 11 or 12, characterized in that the at least one blocking slide (27) of a spring (28) is pressed against a curved path (29) on an adjusting sleeve (23). Nesting machine / screwdriver according to Claim 13, characterized in that by means of the adjusting sleeve (23) both the preload of the coupling spring (20) and the input and locking elements of the blocking elements (183, 271), respectively. disconnection controllable. Drill / screwdriver according to one of Claims 1 to 7, characterized in that the blocking elements (271, 183) have blocking surfaces (271a, b; 183a, b) for torque transmission, which are so arranged in relation to the direction of rotation of the coupling (13) that when transmitting a maximum permissible torque, the blocking elements (271, 183) are snapped over.